Hydraulic coupling device and male and female coupling units

ABSTRACT

A male coupling unit for a hydraulic coupling device, comprising a male coupling body comprising a hollow core comprising a male coupling body center axis extending in a male coupling body extension direction, wherein the male coupling body comprises an inner surface wherein the male coupling body further comprising a poppet valve device arranged in the hollow core, wherein the poppet valve device comprises a poppet device, a guide device, and a spring device, wherein a first end of the spring device is supported by the poppet device and a second end of the spring device is supported by the guide device, wherein the poppet device is movable in relation to the guide device along the male coupling body extension direction between an open and closed position upon compression and extension of the spring device respectively, wherein the guide device is locked in the male coupling body extension direction, wherein the inner surface comprises a thread surface portion, wherein the guide device comprises an outer surface comprising a thread surface portion configured to engage with the corresponding thread surface portion of the inner surface of the male coupling body for locking the guide portion.

TECHNICAL FIELD

The present invention relates generally to a hydraulic coupling device and male and female coupling units for a hydraulic coupling device.

BACKGROUND ART

It is known to use hydraulic coupling devices for enabling the quick connection between working machines and a variation of hydraulically operated tools. Generally, hydraulic coupling devices comprises a female coupling unit and male coupling unit adapted to matingly engage with each other. One coupling unit, usually the female coupling unit, is arranged to the working machine via a holding block. The male coupling unit is usually arranged in a tool. The respective coupling units are adapted to provide a seal against leakage of hydraulic fluid during non-use, i.e. when not connected to each other, by the aid of valve devices. Upon connection, the valves are opened and hydraulic fluid is allowed to flow between the working machine and the hydraulically operated tool. Further, the valve device comprises a fixedly mounted part and a poppet device movable in relation to the fixedly mounted part with a spring connecting the poppet device and the fixedly mounted part. The fixedly mounted part is arranged to the inner part of the male coupling unit via circlip.

A drawback of known solutions is that the valve device of the male coupling unit comprises multiple parts which are cumbersome and time-consuming to assemble. The guidance between the poppet device and the fixedly mounted part is poor and solely enabled via a guide pin, whereby the poppet device may be tilted in relation to the fixedly mounted part. A further drawback is thus that, as a result, the circlip may be brought out of its position, whereby all valve device parts are released and either become stuck in the male coupling unit causing malfunction of the valve device and leakage of hydraulic oil during non-use, or moves into the hydraulic flow causing malfunction of the tool. Alternatively, during tilting, the poppet device become stuck in the male coupling unit with similar negative results as above.

Yet another drawback of known solutions is that the sealing rings used in the female and male coupling units, so-called o-rings, provide unsufficient sealing capacity, as well as require additional means and assembly steps for fixation as their flexibility otherwise may cause the o-rings to release undesirably from their position causing leakage and malfunction of the tools as they enter the hydraulic flow.

SUMMARY OF INVENTION

An object of the present invention is to alleviate some of the disadvantages of the prior art and to provide a hydraulic coupling device which requires less parts and is easier to assemble. A further object of the present invention is to provide a hydraulic coupling device that reduces risk of malfunction of the device or the hydraulically operated tools connected thereto, hence provide a more reliable hydraulic coupling device.

According to one embodiment of the invention, a male coupling unit for a hydraulic coupling device is provided, comprising a male coupling body comprising a hollow core comprising a male coupling body center axis extending in a male coupling body extension direction, wherein the male coupling body comprises an inner surface wherein the male coupling body further comprising a poppet valve device arranged in the hollow core, wherein the poppet valve device comprises a poppet device, a guide device, and a spring device, wherein a first end of the spring device is supported by the poppet device and a second end of the spring device is supported by the guide device, wherein the poppet device is movable in relation to the guide device along the male coupling body extension direction between an open and closed position upon compression and extension of the spring device respectively, wherein the guide device is locked in the male coupling body extension direction, wherein the inner surface comprises a thread surface portion, wherein the guide device comprises an outer surface comprising a thread surface portion configured to engage with the corresponding thread surface portion of the inner surface of the male coupling body for locking the guide portion.

According to one embodiment, the guide device comprises a center portion extending in the male coupling body extension direction and a plurality of legs extending in a direction from the first extension direction towards the thread surface portion, forming lead-through channels between the legs, wherein the thread surface portion is formed on the outer ends of the legs.

According to one embodiment, the guide device comprises three legs.

According to one embodiment, the poppet device comprises a cylindrical hollow core comprising the first end of the spring device, wherein the guide device comprises a cylindrical hollow core comprising the second end of the spring device, wherein the poppet device and guide device are configured to matingly engage each other wherein the spring device is entirely enclosed within the poppet device and the guide device.

According to one embodiment, a male coupling unit for a hydraulic coupling device is provided, comprising a male coupling body comprising a hollow core comprising a male coupling body center axis extending in a male coupling body extension direction, wherein the male coupling body comprises an inner surface wherein the male coupling body further comprising a poppet valve device arranged in the hollow core; wherein the poppet valve device comprises a poppet device, a guide device, and a spring device, wherein a first end of the spring device is supported by the poppet device and a second end of the spring device is supported by the guide device, wherein the poppet device is movable in relation to the guide device along the male coupling body extension direction between an open and closed position upon compression and extension of the spring device respectively, wherein the guide device is locked in the male coupling body extension direction, wherein the inner surface comprises a thread surface portion, wherein the poppet device comprises a cylindrical hollow core comprising the first end of the spring device, wherein the guide device comprises a cylindrical hollow core comprising the second end of the spring device, wherein the poppet device and guide device are configured to matingly engage each other wherein the spring device is entirely enclosed within the poppet device and the guide device.

According to one embodiment, the guide device comprises a cylinder portion, wherein the inner diameter of the cylindrical hollow core of the poppet device is larger than the outer diameter of the cylinder portion of the guide portion, wherein the poppet device and guide device matingly engage each other by the guide device being partly inserted into the cylindrical hollow core of the poppet device.

According to one embodiment, the spring device comprises at least one spring.

According to one embodiment, the spring device comprises a plurality of springs.

According to one embodiment, a poppet sealing ring is provided in a circumferential groove of the poppet device.

According to one embodiment, the poppet sealing ring comprises a circumferential groove.

According to one embodiment, the poppet sealing ring is made of polyurethane.

According to one embodiment, a female coupling unit for a hydraulic coupling device is provided, comprising a female coupling body comprising a hollow core, wherein the female coupling body comprising a rear end and a front end, a sealing sleeve device, wherein the sealing sleeve device is supported by a spring device and movable in relation to the female coupling body between a closed and open position upon extension and compression of the spring device respectively, further comprising a female poppet device fixedly arranged to the rear end of the female coupling body in the hollow core and extending towards the front end of the female coupling body; wherein a rear sealing ring is provided along an inner circumferential surface of the sealing sleeve device and adapted to bear against and slide along a front end portion of the female poppet device during movement of the sealing sleeve device, wherein the rear sealing ring is configured to prevent flow of hydraulic fluid between the rear sealing ring and the female poppet device from a rear end of the female coupling body towards a front end of the female coupling body and enable flow of hydraulic fluid between the rear sealing ring and the female poppet device from a front end of the female coupling body towards a rear end of the female coupling body.

According to one embodiment, the rear sealing ring comprises an inner diameter, wherein the inner diameter is variable.

According to one embodiment, the rear sealing ring comprises a circumferential groove facing the rear end of the female coupling body, wherein the circumferential groove is configured to provide elasticity and enable the variation of the inner diameter.

According to one embodiment, a front sealing ring is provided along an inner circumferential surface of the sealing sleeve device at a front end of the sealing sleeve device, wherein the front sealing ring comprises an inner diameter, wherein the inner diameter is variable.

According to one embodiment, the front sealing ring comprises a circumferential groove facing the rear end of the female coupling body, wherein the circumferential groove is configured to provide elasticity and enable the variation of the inner diameter.

According to one embodiment, the rear sealing ring is made of polyurethane.

According to one embodiment, the front sealing ring is made of polyurethane.

According to one embodiment, a hydraulic coupling device is provided comprising a male coupling unit according to e.g. any of the embodiments described above in [0006]-[0016], and a female coupling unit according to e.g. any of the embodiments described above in [0017]-[0023].

According to one embodiment, the hydraulic coupling device, further comprises a holding block, a guiding ring, an expanding ring for fixedly arranging the female coupling unit to the holding block in an opening of the holding block, wherein the guiding ring comprises an outer surface comprising a thread surface portion configured to engage with a thread surface portion of a cylindrical portion of an opening of the holding block fixedly arranging the guiding ring to the holding block, wherein a seat is provided in the opening of the holding block for supporting the expanding ring, wherein an outer surface of the front end portion of the female coupling body comprises a circumferential groove comprising a groove seat, configured to receive the expanding ring, wherein the female coupling unit is adapted to be fixedly arranged to the holding block by being suspended between the guiding ring and the seat, wherein the expanding ring is arranged as a support between the female coupling unit and the seat.

According to one embodiment, a hydraulic coupling device is provided comprising a male coupling unit, a female coupling unit, a holding block, a guiding ring, and an expanding ring for fixedly arranging the female coupling unit to the holding blockin an opening of the holding block, wherein the guiding ring comprises an outer surface comprising a thread surface portion configured to engage with a thread surface portion of the cylindrical portion of the opening of the holding block fixedly arranging the guiding ring to the holding block, wherein a seat is provided in the opening for supporting the expanding ring, wherein an outer surface of the front end of the female coupling body comprises a circumferential groove comprising a groove seat, configured to receive the expanding ring, wherein female coupling unit is adapted to be fixedly arranged to the holding block by being suspended between the guiding ring and the seat, wherein the expanding ring is arranged as a support between the female coupling unit and the seat.

According to one embodiment, the hydraulic coupling device further comprises a male coupling unit, e.g. as described in embodiments [0006]-[0016] above.

BRIEF DESCRIPTION OF DRAWINGS

The invention is now described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 shows a perspective view of a working machine with a quick coupler and a hydraulic coupling device for attaching and connecting a hydraulically operated tool thereto.

FIG. 2 shows an enlarged view of the quick coupler and the hydraulic coupling device according to the invention according to FIG. 1.

FIG. 3a shows a perspective front end view of a male coupling unit of a hydraulic coupling device according to one embodiment of the invention and according to FIG. 1-2.

FIG. 3b shows a perspective rear end view of a male coupling unit of a hydraulic coupling device according to FIG. 3 a.

FIG. 3c shows a front end side view of a male coupling unit of a hydraulic coupling device according to FIG. 3 a.

FIG. 3d shows a rear end side view of a male coupling unit of a hydraulic coupling device according to FIG. 3 a.

FIG. 3e shows a side view of a male coupling unit of a hydraulic coupling device according to FIG. 3 a.

FIG. 3f shows a cross-section view of a male coupling unit along line A-A of FIG. 3 e.

FIG. 4a shows a perspective front end view of a female coupling unit of a hydraulic coupling device according to one embodiment of the invention.

FIG. 4b shows a perspective rear end view of a female coupling unit of a hydraulic coupling device according to FIG. 4 a.

FIG. 4c shows a front end side view of a female coupling unit of a hydraulic coupling device according to FIG. 4 a.

FIG. 4d shows a rear end side view of a female coupling unit of a hydraulic coupling device according to FIG. 4 a.

FIG. 4e shows a side view of a male coupling unit of a hydraulic coupling device according to FIG. 3 a.

FIG. 4f shows a cross-section view of a male coupling unit along line A-A of FIG. 4 e.

FIG. 5a shows a cross-section side view of a hydraulic coupling device in a closed position.

FIG. 5b shows a cross-section side view of a hydraulic coupling device in an open position.

DESCRIPTION OF EMBODIMENTS

In the following, a detailed description of the invention will be given. In the drawing figures, like reference numerals designate identical or corresponding elements throughout the several figures. It will be appreciated that these figures are for illustration only and are not in any way restricting the scope of the invention.

FIG. 1 shows a perspective view of a working machine 1 with a quick coupler 5 and a hydraulic coupling device 10 according to one embodiment of the invention, for attaching and connecting a hydraulically operated tool thereto.

FIG. 2 shows an enlarged view of the quick coupler 5 and the hydraulic coupling device 10 connected to a holding block 50. According to one embodiment, the holding block 50 is arranged to the quick coupler 2. According to one embodiment, the holding block 50 is arranged to the quick coupler 5 via linear controls. According to one embodiment the holding block 50 is arranged to the quick coupler 2 via hydraulic cylinders. According to one embodiment, the holding block 50 is movable in relation to the quick coupler 5 during connection of the male 20 and female 30 coupling units of the hydraulic coupling device 10. As seen in FIG. 2, a female coupling unit 30 of the hydraulic coupling device 10 is arranged to the holding block by the aid of an expanding ring 60. An hydraulically operated tool (not shown) equipped with a male coupling unit 20 may then be attached to the quick coupler 5 and the male and female coupling units are brought into mating engagement with each other.

FIG. 3a shows a perspective front end view of a male coupling unit 20 of a hydraulic coupling device 10. The hydraulic coupling unit 20 comprises a male coupling body 21 further comprising an outer surface 21 a. At the front end of the male coupling body poppet device 24 is arranged.

FIG. 3b shows a perspective rear end view of a male coupling unit 20 of a hydraulic coupling device 10. The male coupling unit 20 comprises a male coupling body 21, comprising a hollow core 21 c and an inner surface 21 b. The inner surface portion comprises a thread surface portion 21 b 1.

FIG. 3c shows a front end side view of a male coupling unit 20 of a hydraulic coupling device 10.

FIG. 3d shows a rear end side view of a male coupling unit 20 of a hydraulic coupling device 10. A guide device 25 is disclosed comprising a center portion and a plurality of radial legs 25 d 1, 25 d 2, 25 d 3 providing a lead-through for the hydraulic fluid.

FIG. 3e shows a side view of a male coupling unit 20 of a hydraulic coupling device 10.

FIG. 3f shows a cross-section view of a male coupling unit 20 of a hydraulic coupling device 10 along line A-A of FIG. 3e . According to one embodiment, the hydraulic coupling device 10 comprises a male coupling unit 20, further comprising a male coupling body 21 comprising a hollow core 21 c comprising a male coupling body center axis 21′ extending in a male coupling body extension direction. According to one embodiment, the male coupling body extension direction is thus directed in both directions of the male coupling body center axis 21′. The male coupling body 21 comprises an outer surface 21 a and an inner surface 21 b. According to one embodiment, the male coupling body 21 comprises a poppet valve device 23 configured to seal the outside from the interior of the male coupling body 21 through opening 21 f of the male coupling body 21 in a closed position, and open the outside from the interior of the male coupling body 21 through the opening 21 f in an open position. The poppet valve device 23 comprises poppet device 24, a guide device 25 and a spring device 26, wherein a first end 26 a of the spring device 26 is supported by the poppet device 24, wherein a second end 26 b of the spring device 26 is supported by the guide device 25, wherein the poppet device 24 is movable in relation to the guide device 25 along the male coupling body extension direction between an open and closed position upon compression and extension of the spring device 26 respectively, wherein the guide device 25 is locked in the male coupling body extension direction, wherein the inner surface 21 b of the male coupling body 21 comprises a thread surface portion 21 b 1, wherein the guide device 25 comprises an outer surface 25 a comprising a thread surface portion 25 a 1 configured to engage with the corresponding thread surface portion 21 b 1 of the inner surface 21 b of the male coupling body 21 for locking the guide device 25. According to one embodiment, the thread surface portion 25 a 1 is configured to engage with the corresponding thread surface portion 21 b 1 of the inner surface 21 b of the male coupling body 21 for locking the guide device 25 in a male coupling body extension direction. According to one embodiment, extension of the of spring device 26 comprises a relative movement from a compressed spring device 26 towards a relatively more extended spring device 26.

According to one embodiment, the poppet valve device 23 comprises a poppet sealing ring 28 provided in a circumferential groove 24 d of the poppet device 24. FIG. 3f further discloses an enlarged view of the poppet sealing ring 28. According to one embodiment, the poppet sealing ring 28 comprises a circumferential groove 28 a. According to one embodiment, the poppet sealing ring 28 comprises an outer diameter, wherein the outer diameter is variable. According to one embodiment, the poppet sealing ring 28 comprises a circumferential groove 28 a facing the rear end portion 21 d of the male coupling body 21, wherein the circumferential groove 28 a is configured to provide elasticity and enable the variation of the outer diameter as well as providing a channel for hydraulic fluid which when filled with pressurized hydraulic fluid increases the outer diameter. According to one embodiment, the effect of an increased outer diameter corresponds to an increasing sealing force against a surface abutting or bearing against the poppet sealing ring 28, such as the inner surface 21 b at the opening 21 f of the male coupling body 21 in a closed position. According to one embodiment, the circumferential groove 28 a is v-shaped. According to one embodiment, the poppet sealing ring 28 is configured to abut or bear against the male coupling body 21 with a higher force upon an increasing pressure of a hydraulic fluid within the male coupling body 21. According to one embodiment, the outer diameter is defined by a wedge-shaped portion 28 b. According to one embodiment, the wedge-shaped portion 28 b is shaped to provide a faster increase of the outer diameter in a direction from the rear end portion 21 d to the front end portion 21 e of the male coupling body 21 compared to a direction from the front end portion 21 e to the rear end portion 21 d of the male coupling body 21.

According to one embodiment, the poppet sealing ring 28 is made of polyurethane, also known as PUR.

According to one embodiment, the poppet valve device 23 is biased towards a closed position by the spring device 26. According to one embodiment, the guide device 25 comprises a center portion 25 e extending in the male coupling body extension direction and a plurality of radial legs 25 d 1, 25 d 2, 25 d 3 extending in a direction from the male coupling body center axis 21′ towards the thread surface portion 21 b 1. According to one embodiment, the radial legs 25 d 1, 25 d 2, 25 d 3 provides a lead-through for the hydraulic fluid between a front end 21 e and a rear end 21 d of the male coupling body 21. According to one embodiment, the radial legs 25 d 1, 25 d 2, 25 d 3 provides a lead-through for the hydraulic fluid between a front end 21 e and a rear end 21 d of the male coupling body 21 between the radial legs 25 d 1, 25 d 2, 25 d 3. According to one embodiment, the guide device 25 comprises three legs 25 d 1, 25 d 2, 25 d 3. As seen in FIG. 3d , according to one embodiment, the three legs 25 d 1, 25 d 2, 25 d 3 extend from the male coupling body center axis 21′ with an interval of 120°. As seen in FIG. 3d , according to one embodiment, the three legs 25 d 1, 25 d 2, 25 d 3 extend from the male coupling body center axis 21′ and are separated from each other by an angular distance of 120°. According to one embodiment, the plurality of radial legs 25 d 1, 25 d 2, 25 d 3, . . . , 25 dn extend in a direction from the male coupling body center axis 21′ towards the thread surface portion 21 b 1 and are separated from each other with an angular distance evenly distributed between the plurality of radial legs 25 d 1, 25 d 2, 25 d 3, 25 dn. Thus, e.g. in the example of four radial legs, the radial legs are separated from each other with an angular distance of 90°. According to one embodiment, the plurality of radial legs 25 d 1, 25 d 2, 25 d 3, . . . , 25 dn extend in a direction from the male coupling body center axis 21′ towards the thread surface portion 21 b 1 and are separated from each other with an angular distance. According to one embodiment, the angular distance is unevenly distributed between the plurality of radial legs 25 d 1, 25 d 2, 25 d 3, . . . , 25 dn.

According to one embodiment, the poppet device 24 comprises a cylindrical hollow core 24 c, and outer surface 24 a and an inner surface 24 b. According to on embodiment, the cylindrical hollow core 24 c of the poppet device 24 comprises the first end 26 a of the spring device 26. According to one embodiment, the poppet device 24 forms a stop portion 24 b 2 of the inner surface 24 b configured to support the first end 26 a of the spring device 26. According to one embodiment, the guide device 25 comprises a cylindrical hollow core 25 c, an outer surface 25 a and an inner surface 25 b. According to one embodiment, the cylindrical hollow core 25 c of the guide device 25 comprises the second end 26 b. According to one embodiment, the guide device 25 forms a stop portion 25 b 2 of the inner surface 25 b configured to support the second end 26 b of the spring device 26. According to one embodiment, the poppet device 24 and the guide device 25 matingly engage each other wherein the spring device 26 is entirely enclosed within the poppet device 24 and the guide device 25. According to one embodiment, the spring device 26 is entirely enclosed within the poppet valve device 23. According to one embodiment, center portion 25 e of the guide device 25 comprises a cylinder portion 25 e. According to one embodiment, an inner diameter of the cylindrical hollow core 24 c of the poppet device 24 is larger than the outer diameter of the cylinder portion of the guide device 25, wherein the poppet device 24 and guide device 25 matingly engage each other by the poppet device 24 encompassing the guide portion 25. According to one embodiment, the poppet device 24 and guide device 25 matingly engage each other by a portion of the poppet device 24 overlaps a portion of the guide portion 25. According to one embodiment, the poppet device 24 and guide device 25 matingly engage each other by the guide device 25 being partly inserted into the cylindrical hollow core 24 c of the poppet device 24. According to one embodiment, the spring device 26 comprises at least one spring 26 c 1. According to one embodiment, the spring device 26 comprises a plurality of springs 26 c 1, 26 c 2, i.e. at least two springs but comprising any number of springs. According to one embodiment, the plurality of springs 26 c 1, 26 c 2 enables the selection of a desired spring force for generating a sufficient closing force of the male coupling unit 20 for specific purposes preventing leakage of hydraulic fluid.

FIG. 4a shows a perspective front end view of a female coupling unit 30 of a hydraulic coupling device 10. The hydraulic coupling unit 30 comprises a female coupling body 31 further comprising an outer surface 31 a. At the front end 31 e of the female coupling body 3, a female poppet device 33 is shown.

FIG. 4b shows a perspective rear end view of a female coupling unit 30 of a hydraulic coupling device 10. The female coupling unit 30 comprises a female coupling body 31, comprising a hollow core 31 c and an inner surface 31 b.

FIG. 4c shows a front end side view of a female coupling unit 30 of a hydraulic coupling device 10.

FIG. 4d shows a rear end side view of a female coupling unit 30 of a hydraulic coupling device 10. According to one embodiment, the rear end portion 31 d comprises a plurality of orifices 35 d 1, 35 d 2, 35 d 3, 35 d 4 providing lead-throughs for the hydraulic fluid.

FIG. 4e shows a side view of a female coupling unit 30 of a hydraulic coupling device 10.

FIG. 4f shows a cross-section view of a female coupling unit along line A-A of FIG. 4e . FIG. 4f further discloses enlarged views of a rear sealing ring 34 and a front sealing ring 35. According to one embodiment, the female coupling unit 30 further comprising a female coupling housing 31 comprising a rear end portion 31 d and a front end portion 31 e, a sealing sleeve device 32, wherein the sealing sleeve device 32 is supported by a spring device 36 and movable in relation to the female coupling housing 31 between a closed and open position upon extension and compression of the spring device 36 respectively. According to one embodiment, extension of the of spring device 36 comprises a relative movement from a compressed spring device 36 towards a relatively more extended spring device 36. According to one embodiment, a rear end portion 31 d comprising a female poppet device 33 extending along a female coupling body center axis 31′ of the female coupling body 31 towards the front end 31 e of the female coupling body 31, wherein a rear sealing ring 34 is provided along an inner circumferential surface 32 b of the sealing sleeve device 32 and adapted to abut or bear against and slide along a front end portion of the female poppet device 33 during movement of the sealing sleeve device 32, wherein the rear sealing ring 34 is configured to prevent flow of hydraulic fluid between the rear sealing ring 34 and the female poppet device 33 from a rear end 31 d of the female coupling housing 31 towards a front end 31 e of the female coupling housing 31 and enable flow of hydraulic fluid between the rear sealing ring 34 and the female poppet device 33 from a front end 31 e of the female coupling housing towards a rear end 31 d of the female coupling housing. According to one embodiment, a desired effect of this is feature is that it enables high pressure of the hydraulic fluid in the male coupling body 21, i.e. in a hydraulically operated work tool connected to the male coupling body to be reduced in a controlled manner by allowing hydraulic fluid to enter the female coupling body 31 during connection of the male 21 and female 31 coupling body. According to one embodiment, the rear sealing ring 34 functions as a check valve or as a safety valve. The alternative, as present in the background art, is that rear sealing rings consists of o-rings which essentially provides an equal sealing capability in both directions whereby the pressure of the hydraulic fluid in the male coupling body 21 may force the o-ring out of position to eventually enter the hydraulic fluid, causing malfunction of the hydraulic coupling device and/or the hydraulically operated work tool. According to one embodiment, the rear sealing ring 34 is held in place in the inner circumferential surface 32 b by a seat 32 f of the sealing sleeve device 32 and a locking ring 37. According to one embodiment, the sealing sleeve device 32 comprising the rear sealing ring 34 and the female poppet device 33 are configured to engage so that during a closed position, the outside is sealed from the interior of the female coupling body 31 through an opening 31 f, and during an open position, the outside is open from the interior of the female coupling body 31 through the opening 31 f.

According to one embodiment, the rear sealing ring 34 comprises an inner diameter, wherein the inner diameter is variable. According to one embodiment, the rear sealing ring 34 comprises a circumferential groove 34 a facing the rear end portion 31 d of the female coupling body 31, wherein the circumferential groove 34 a is configured to provide elasticity and enable the variation of the inner diameter as well as providing a channel for hydraulic fluid which when filled with pressurized hydraulic fluid reduces the inner diameter. According to one embodiment, the effect of a reduced inner diameter corresponds to an increasing sealing force against a surface abutting or bearing against the rear sealing ring 34, such as the female poppet device 33 in a closed position. According to one embodiment, the circumferential groove 34 a is v-shaped. According to one embodiment, the rear sealing ring 36 is configured to bear against the female poppet device 33 with a higher force upon an increasing pressure of an hydraulic fluid within the female coupling housing 31. According to one embodiment, the inner diameter is defined by a wedge-shaped portion 34 b. According to one embodiment, the wedge-shaped portion 34 b is shaped to provide a faster reduction of the inner diameter in a direction from the rear end portion 31 d to the front end portion 31 e of the female coupling housing 31 compared to a direction from the front end portion 31 e to the rear end portion 31 d of the female coupling body 31.

According to one embodiment, a front sealing ring 35 is provided along an inner circumferential surface 32 b of the sealing sleeve device 32 at a front end portion 32 e of the sealing sleeve device 32, wherein the front sealing ring 35 comprises an inner diameter, wherein the inner diameter is variable. According to one embodiment, the front sealing ring 35 comprises a circumferential groove 35 a facing the rear end portion 31 d of the female coupling housing 31, wherein the circumferential groove 35 a is configured to provide elasticity and enable the variation of the inner diameter of the outer sealing ring 35 as well as providing a channel for hydraulic fluid which when filled with pressurized hydraulic fluid reduces the inner diameter. According to one embodiment, the effect of a reduced inner diameter corresponds to an increasing sealing force against a surface abutting or bearing against the front sealing ring 35, such as the outer surface 21 a of the male coupling body 21 when the male coupling body 21 has been inserted into the female coupling body 31 as further described in connection to FIGS. 5a-5b . According to one embodiment, the circumferential groove 35 a is v-shaped. According to one embodiment, the front sealing ring 35 is configured to bear against the outer surface 21 b of the male coupling body 21 with a higher force upon an increasing pressure of an hydraulic fluid within the female coupling housing 31 or alternatively, upon an increasing pressure within the combined housing of the female coupling housing 31 and the male coupling housing 21 when connected together. According to one embodiment, the inner diameter is defined by a circumferential wedge-shaped portion 35 b. According to one embodiment, the inner diameter is defined by a circumferential leg portion 35 b 2 extending from a cylinder portion 35 c with an angle therebetween defined by the v-shaped circumferential groove 35 a. According to one embodiment, the circumferential leg portion 35 b 2/wedge-shaped portion 35 b is shaped to provide a faster reduction of the inner diameter in a direction from the rear end portion 31 d to the front end portion 31 e of the female coupling housing 31 compared to a direction from the front end portion 31 e to the rear end portion 31 d of the female coupling housing 31.

According to one embodiment, the rear sealing ring 34 is made of polyurethane, also known as PUR.

According to one embodiment, the front sealing ring 35 is made of polyurethane, also known as PUR.

FIG. 5a shows a cross-section side view of a hydraulic coupling device 10, comprising a male coupling unit 20 and a female coupling unit 30 in a closed position. The male coupling unit 20 has been introduced into the female coupling part 30 whereby the male coupling body center axis 21′ has been aligned with the female coupling body center axis 31′. A front end portion 21 d of the male coupling body 21 abuts the sealing sleeve device 32, and the female poppet device 33 abuts the poppet device 24, without any pressure applied to overcome the spring forces of spring device 36 and spring device 26 which thereby remain in an extended position. Hereby, the male coupling unit 20 and the female coupling unit 30 is in a closed position respectively, wherein no hydraulic fluid within the male coupling body 20 and/or the female coupling body 30 may exit their respective bodies or interiors through openings 21 f and 31 f respectively.

According to one embodiment, as seen in FIG. 5a , the hydraulic coupling device 10 further comprises a holding block 50, a guiding ring 60, and an expanding ring 70 for fixedly arranging the female coupling unit 30 to the holding block 50. According to one embodiment, the hydraulic coupling device 10 comprises the female coupling unit 30, a holding block 50, a guiding ring 60, and an expanding ring 70 for fixedly arranging the female coupling unit 30 to the holding block 50. The female coupling body 31 is inserted from a female coupling body insertion side 51 of the holding block 50, and the male coupling body 21 is inserted from a male coupling body insertion side 52 of the holding block 50. According to one embodiment, the holding block 50 on the male coupling body insertion side 52 comprises an opening 52 a of larger diameter than the front end portion 31 e of the female coupling body 31. The opening 52 a comprises a cylindrical portion 52 c and a conical portion 52 d with a decreasing diameter towards the female coupling body insertion side 51, ending in a seat 53. According to one embodiment, the cylindrical portion 52 c of the opening 52 a comprises a thread surface 52 c 1. According to one embodiment, the guiding ring 60 comprises an outer surface 60 a comprising a thread surface portion 60 a 1 configured to engage with the thread surface portion 52 c 1 of the cylindrical portion 52 c of the opening 52 a. According to one embodiment, the front end of the guiding ring 60 is provided with a plurality of openings 61 a 1, 61 a 2, 61 a 3, 61 a 4, 61 a 5, 61 a 6 adapted to receive a tool comprising corresponding pins to be inserted into the holes and engage with the guiding ring 60 to enable a screwing motion of the guiding ring 60. According to one embodiment, the openings 61 a 1, 61 a 2, 61 a 3, 61 a 4, 61 a 5, 61 a 6 are circumferentially arranged on the front end of the guiding ring 60. According to one embodiment, the holes are circular. According to one embodiment, the guiding ring 60 is essentially cylinder shaped, comprising a hollow core having an inner wall of varying diameter. A rear end of the guiding ring is adapted to be inserted into the opening 52 a and face the female coupling body insertion side 51. At the rear end of the guiding ring 60 the rear inner diameter is initially larger than the diameter of the front end of the female coupling body 31. The space between the female coupling body 31 and the inner wall of the guiding ring 60 forms a cylindrical guiding. The rear inner diameter decreases in a first step forming a cylindrical guiding seat, which according to one embodiment, may be conically shaped. The inner diameter then decreases in a second step forming a second seat, essentially corresponding to the outer diameter of the female coupling body 31 and the male coupling body 21. According to one embodiment, the expanding ring 70 has the shape of a part of a cone, wherein the rear end of the expanding ring 70 has a larger diameter than the front end of the expanding ring. The expanding ring 70 is configured to be flexible and biased in a radially outward direction upon compression radially inward. According to one embodiment the outer surface 31 a of the front end 31 e of the female coupling body 31 comprises a circumferential groove 31 f configured to receive the expanding ring 70. According to one embodiment, the circumferential groove 31 f provides the outer surface 31 a of the female coupling body 31 the shape of a part of cone corresponding to the shape of the expanding ring 70, wherein the diameter of the outer surface 31 a of the female coupling body 31 decreases towards the front end of the female coupling body 31. At the end of the groove 31 f, the diameter abruptly increases to form a groove seat 31 g for the expanding ring 70.

According to one embodiment, mounting of the hydraulic coupling device 10 is carried out by first inserting the female coupling body 31 into in the holding block 50 from the female coupling body insertion side 51. The expanding ring 70 is provided over the front end portion 31 e of the female coupling portion 31 by inserting the expanding ring 70 from the male coupling body insertion side 52 in the opening 52 a. Thereafter the guiding ring 60 is screwed into the opening 52 a, until contacting the expanding ring 70 whereby the expanding ring 70 is pressed into the seat 53 of the holding block by guidance of the conical portion of the opening 52 a. During further screwing of the guiding ring 60, the expanding ring 70 is further guided by the cylindrical guiding to get further compressed and eventually engage with the circumferential groove 31 f and the groove seat 31 g. Upon further screwing of the guiding ring 60, the second seat of the guide ring 60 contacts or engages the front end of the female coupling body 31 whereby the female coupling body is pressed in a rearward direction towards the female coupling body insertion side 52, with the expanding ring 70 providing a support or holder-on or lock or stop for the female coupling body 31 preventing a release of the female coupling body 31 in this direction towards the female coupling body insertion side 51.

FIG. 5b shows a cross-section side view of a hydraulic coupling device 10 in an open position. The male coupling unit 20 has been further introduced into the female coupling unit 30 whereby the spring forces of springs 26 and 36 have been overcome compressing the springs 26, 36. During the entire movement from a closed to an open position, the poppet device 24 and the guide device 25 matingly engage each other, providing a guidance and preventing tilting of the parts. Further, in the open position, a channel, or opening is created between the poppet device 24 and in particular, the poppet sealing ring 28 and the inner surface 21 b of the male coupling body 21. Additionally a channel, or opening is created between the female poppet device 33 and the inner surface of the sealing sleeve device 32 and in particular the rear sealing ring 34. As the female poppet device 33 is inserted into the male coupling body 21 in an open position, a channel, or opening is further provided between the female poppet device 33 and the inner surface 21 b of the male coupling body 21. The increasing diameter of the female poppet portion 33 towards a front end portion 31 e of the female coupling body 31 corresponds to an increasing diameter of the inner surface portion 21 b of the male coupling body 21 in a towards a rear end portion 21 d of the male coupling body 21. Hydraulic fluid within the male coupling body 21 and/or the female coupling body 31 may exit their respective bodies or interiors and enter the other of the male or female coupling body 21, 31. The front sealing ring 35 provides a seal in the interface between the male coupling body 21 and the female coupling body 31 preventing leakage of hydraulic fluid within the male coupling body 20 and/or the female coupling body 30.

A preferred embodiment of a male coupling unit 20, a female coupling unit 30, a hydraulic coupling device 10 according to the invention has been described. However, the person skilled in the art realizes that this can be varied within the scope of the appended claims without departing from the inventive idea.

All the described alternative embodiments above or parts of an embodiment can be freely combined without departing from the inventive idea as long as the combination is not contradictory. 

1-22. (canceled)
 23. A male coupling unit for a hydraulic coupling device, comprising a male coupling body comprising a hollow core comprising a male coupling body center axis extending in a male coupling body extension direction, wherein the male coupling body comprises an inner surface wherein the male coupling body further comprising a poppet valve device arranged in the hollow core, wherein the poppet valve device comprises a poppet device, a guide device, and a spring device, wherein a first end of the spring device is supported by the poppet device and a second end of the spring device is supported by the guide device, wherein the poppet device is movable in relation to the guide device along the male coupling body extension direction between an open and closed position upon compression and extension of the spring device respectively, wherein the guide device is locked in the male coupling body extension direction, wherein the inner surface comprises a thread surface portion, wherein the guide device comprises an outer surface comprising a thread surface portion configured to engage with the corresponding thread surface portion of the inner surface of the male coupling body for locking the guide portion.
 24. The male coupling unit according to claim 23, wherein the guide device comprises a center portion extending in the male coupling body extension direction and a plurality of legs extending in a direction from the first extension direction towards the thread surface portion, forming lead-through channels between the legs, wherein the thread surface portion is formed on the outer ends of the legs.
 25. The male coupling unit according to claim 1, wherein the poppet device comprises a cylindrical hollow core comprising the first end of the spring device, wherein the guide device comprises a cylindrical hollow core comprising the second end of the spring device, wherein the poppet device and guide device are configured to matingly engage each other wherein the spring device is entirely enclosed within the poppet device and the guide device.
 26. A male coupling unit for a hydraulic coupling device, comprising a male coupling body comprising a hollow core comprising a male coupling body center axis extending in a male coupling body extension direction, wherein the male coupling body comprises an inner surface wherein the male coupling body further comprising a poppet valve device arranged in the hollow core; wherein the poppet valve device comprises a poppet device, a guide device, and a spring device, wherein a first end of the spring device is supported by the poppet device and a second end of the spring device is supported by the guide device, wherein the poppet device is movable in relation to the guide device along the male coupling body extension direction between an open and closed position upon compression and extension of the spring device respectively, wherein the guide device is locked in the male coupling body extension direction, wherein the inner surface comprises a thread surface portion, wherein the poppet device comprises a cylindrical hollow core comprising the first end of the spring device, wherein the guide device comprises a cylindrical hollow core comprising the second end of the spring device, wherein the poppet device and guide device are configured to matingly engage each other wherein the spring device is entirely enclosed within the poppet device and the guide device.
 27. The male coupling unit according to claim 23, wherein the guide device comprises a cylinder portion, wherein the inner diameter of the cylindrical hollow core of the poppet device is larger than the outer diameter of the cylinder portion of the guide portion, wherein the poppet device and guide device matingly engage each other by the guide device being partly inserted into the cylindrical hollow core of the poppet device.
 28. The male coupling unit according to claim 23, wherein the spring device comprises at least one spring.
 29. The male coupling unit according to claim 23, wherein a poppet sealing ring is provided in a circumferential groove of the poppet device.
 30. The male coupling unit according to claim 23, wherein the poppet sealing ring comprises a circumferential groove.
 31. The male coupling unit according to claim 23, wherein the poppet sealing ring is made of polyurethane.
 32. A female coupling unit for a hydraulic coupling device, comprising a female coupling body comprising a hollow core, wherein the female coupling body comprising a rear end and a front end, a sealing sleeve device, wherein the sealing sleeve device is supported by a spring device and movable in relation to the female coupling body between a closed and open position upon extension and compression of the spring device respectively, further comprising a female poppet device fixedly arranged to the rear end of the female coupling body in the hollow core and extending towards the front end of the female coupling body; wherein a rear sealing ring is provided along an inner circumferential surface of the sealing sleeve device and adapted to bear against and slide along a front end portion of the female poppet device during movement of the sealing sleeve device, wherein the rear sealing ring is configured to prevent flow of hydraulic fluid between the rear sealing ring and the female poppet device from a rear end of the female coupling body towards a front end of the female coupling body and enable flow of hydraulic fluid between the rear sealing ring and the female poppet device from a front end of the female coupling body towards a rear end of the female coupling body.
 33. The female coupling unit according to claim 32, wherein the rear sealing ring comprises an inner diameter, wherein the inner diameter is variable.
 34. The female coupling unit according to claim 32, wherein the rear sealing ring comprises a circumferential groove facing the rear end of the female coupling body, wherein the circumferential groove is configured to provide elasticity and enable the variation of the inner diameter.
 35. The female coupling unit according to claim 32, wherein a front sealing ring is provided along an inner circumferential surface of the sealing sleeve device at a front end of the sealing sleeve device, wherein the front sealing ring comprises an inner diameter, wherein the inner diameter is variable.
 36. The female coupling unit according to claim 32, wherein the front sealing ring comprises a circumferential groove facing the rear end of the female coupling body, wherein the circumferential groove is configured to provide elasticity and enable the variation of the inner diameter.
 37. The female coupling unit according to claim 32, wherein the rear sealing ring is made of polyurethane.
 38. The female coupling unit according to claim 32, wherein the front sealing ring is made of polyurethane.
 39. A hydraulic coupling device comprising a male coupling unit according to claim 23, and a female coupling unit for a hydraulic coupling device, comprising a female coupling body comprising a hollow core, wherein the female coupling body comprising a rear end and a front end, a sealing sleeve device, wherein the sealing sleeve device is supported by a spring device and movable in relation to the female coupling body between a closed and open position upon extension and compression of the spring device respectively, further comprising a female poppet device fixedly arranged to the rear end of the female coupling body in the hollow core and extending towards the front end of the female coupling body; wherein a rear sealing ring is provided along an inner circumferential surface of the sealing sleeve device and adapted to bear against and slide along a front end portion of the female poppet device during movement of the sealing sleeve device, wherein the rear sealing ring is configured to prevent flow of hydraulic fluid between the rear sealing ring and the female poppet device from a rear end of the female coupling body towards a front end of the female coupling body and enable flow of hydraulic fluid between the rear sealing ring and the female poppet device from a front end of the female coupling body towards a rear end of the female coupling body.
 40. The hydraulic coupling device according to claim 39, further comprising a holding block, a guiding ring, an expanding ring for fixedly arranging the female coupling unit to the holding block in an opening of the holding block, wherein the guiding ring comprises an outer surface comprising a thread surface portion configured to engage with a thread surface portion of a cylindrical portion of an opening of the holding block fixedly arranging the guiding ring to the holding block, wherein a seat is provided in the opening of the holding block for supporting the expanding ring, wherein an outer surface of the front end portion of the female coupling body comprises a circumferential groove comprising a groove seat, configured to receive the expanding ring, wherein the female coupling unit is adapted to be fixedly arranged to the holding block by being suspended between the guiding ring and the seat, wherein the expanding ring is arranged as a support between the female coupling unit and the seat.
 41. A hydraulic coupling device comprising a female coupling unit according to claim 32, a holding block, a guiding ring, and an expanding ring for fixedly arranging the female coupling unit to the holding block in an opening of the holding block, wherein the guiding ring comprises an outer surface comprising a thread surface portion configured to engage with a thread surface portion of the cylindrical portion of the opening of the holding block fixedly arranging the guiding ring to the holding block, wherein a seat is provided in the opening for supporting the expanding ring, wherein an outer surface of the front end of the female coupling body comprises a circumferential groove comprising a groove seat, configured to receive the expanding ring, wherein female coupling unit is adapted to be fixedly arranged to the holding block by being suspended between the guiding ring and the seat, wherein the expanding ring is arranged as a support between the female coupling unit and the seat.
 42. The hydraulic coupling device according to claim 39, further comprising a male coupling unit. 